View allAll Photos Tagged computation
Playing around with the blur filter a bit. And I've given the particles curved paths.
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More of my artwork can be found in my online portfolio
and some prints are available
Limited Edition Prints
Hahnemühle Matt Fine Art Paper
Mounted on Aluminium
600x400mm
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A series of limited edition prints signed and to be exhibited soon (I hope). I'm working on some of my original works when I started out some years back now. If I manage to scrape some pennies together I should be printing out fifteen original works. Five in a series of three, each series constitutes three very different techniques.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
Sitting in the doctor’s office, Catherine Rosenberg, of Little Egg Harbor Township, noticed something on a medical report that most patients wouldn’t—the mathematical formula used to calculate the volume of fluid in her swollen leg.
Rosenberg, who was diagnosed with synovial sarcoma at 8 years old, conquered cancer, but the radiation treatments led to her developing lymphedema, a condition that causes severe swelling in the limbs.
Immediately after seeing the formula, her knowledge of numerical analysis told her that there are much more accurate ways to calculate the volume of fluid buildup. Two Stockton degrees, an undergraduate degree in Mathematics and a master’s in Computational Science, and a dedication to advance the field of medicine led her to develop a patent-pending method of measuring fluid in lymphedema patients with help from a number of professors at Stockton and her doctor, Eric Chang.
Photo: Susan Allen/ Stockton University
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
Sai Wan Terrace - Hong Kong, China
HDA : Podium Façades Designer
Client : Swire Propereties Ltd.
Architect : Arquitectonica
Date : 2010 - 2011
See more at : www.hda-paris.com/
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
Sai Wan Terrace - Hong Kong, China
HDA : Podium Façades Designer
Client : Swire Propereties Ltd.
Architect : Arquitectonica
Date : 2010 - 2011
See more at : www.hda-paris.com/
School for Poetic Computation presents 're-coded' an installation at the Day for Night festival in Houston, Tx Dec. 2015.
photo credit: Yeseul Song / School for Poetic Computation
re-code project information: re-code on GitHub
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
Computational Hydraulics Group's plasma vorticity field of edge plasmas in nuclear fusion reactors where the contours are the electrostatic potentials.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
An example jigsaw that has students using multiple types of representation, including models/symbolic/simplified models
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
the beginning of a new way to make print for me - using the computer language "processing" developed by Casey Reas and Ben Fry @ MIT the code for this "print" was adapted from a sample by them and is as follows
void setup() {
size(500, 500);
background (#8FFCE7);
}
void draw() {
float s = dist(mouseX, mouseY, pmouseX, pmouseY) + 1;
noStroke();
fill(0, 102);
ellipse(mouseX, mouseY, s, s);
stroke(255);
point(mouseX, mouseY);
}
this ties into my research as a third order simulacrum - as a print it has never existed physically only within digital space.
On December 30, Ambassador Heidt and Minister of Education Hang Chuon Naron were on hand for a lecture at RUPP by world-famous scientist and entrepreneur Dr. Stephen Wolfram entitled “The Future of Computation and Knowledge.”
Dr. Wolfram is the founder and CEO of software company Wolfram Research, based in the United States, and the creator of the Wolfram Language, which powers the free “answer engine” Wolfram Alpha. The talk was organized by the Ministry of Education, Youth, and Sports; the U.S. Embassy; the Cambodia Science & Engineering Festival; and the Cambodian Mathematical Society.
In his introduction, Ambassador Heidt talked about the role of science, technology, and innovation in the American economy and challenged Cambodian youth to harness technology to build an “innovation society.” Click here to read his remarks.
[U.S. Embassy photo by Un Yarat]
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
L’Università di Pavia ha ospitato , per la prima volta in Italia, la Nobel Prize Inspiration Initiative (NPII), il programma internazionale ideato per far incontrare i Premi Nobel con giovani ricercatori e studenti, per condividere le loro storie ed esperienze con la comunità scientifica.
Mercoledì 1° marzo 2023, alle ore 16:00, presso l’Aula Magna dell’Università di Pavia, il Premio Nobel per la Medicina 2014 Edvard Moser ha tenuto una lectio magistralis dal titolo “Neural computation of space and time”.
La conferenza di Moser è stata incentrata i recenti progressi su come il cervello segue lo spazio e il tempo. Nel 2005, Edvard e May-Britt Moser, hanno scoperto le grid cells, o cellule griglia, che fungono da base cellulare per una funzione cognitiva superiore come quella dell’orientamento.
Le grid cells sono attive quando gli animali si trovano in determinate posizioni e i codici di posizione sorgono in reti di centinaia di cellule neuronali interagenti. Le cellule della griglia si trovano nella corteccia entorinale, che è spesso la prima regione corticale in cui si verifica la neurodegenerazione nella malattia di Alzheimer, con conseguenti compromissioni nello spazio, nel tempo e nelle funzioni della memoria.
Al termine della lezione il professor Moser ha dialogato con il pubblico presente e con la professoressa Gabriella Bottini del Dipartimento di Scienze del Sistema Nervoso e del Comportamento dell’Università di Pavia.
NPII Italia si svolge in associazione con l’Università di Pavia e in partnership con AstraZeneca.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.
In recent decades, developments in software and hardware technologies have created dramatic shifts in design, manufacturing and research. Software technologies have facilitated automated process and new solutions for complex problems. Computation has also become a platform for creativity through generative art and design. New hardware platforms and digital fabrication technologies have similarly transformed manufacturing, offering more efficient production and mass customization. Such advances have helped catalyzed the maker-movement, democratizing design and maker culture. This influx of new capabilities to design, compute and fabricate like never before, has sparked a renewed interest in material performance.
We are now witnessing significant advances in active matter, 3D/4D Printing, materials science, synthetic biology, DNA nanotechnology and soft robotics, which have led to the convergence of software, hardware and material technologies and the growing field of programmable materials.
This conference was about the emerging field of active matter and programmable materials that bridges the worlds of art, science, engineering and design, demonstrating new perspectives for computation, transformation and dynamic material applications.
If over the past few decades we have experienced a software revolution, and more recently, a hardware revolution, this conference aims to discuss the premises, challenges and innovations brought by today’s materials revolution. We can now sense, compute, and actuate with materials alone, just as we could with software and hardware platforms previously. How does this shift influence materials research, and how does it shape the future of design, arts, and industrial applications? What tools and design processes do we need to advance, augment and invent new materials today? What are the key roles that industry, government, academic and public institutions can play in catalyzing the field of programmable materials?
This two-day conference consisted of a range of talks and lively discussion from leading researchers in materials science, art & design, synthetic biology and soft-robotics along with leaders from government, public institutions and industry.
Learn more at activemattersummit.com
All photos ©L. Barry Hetherington
lbarryhetherington.com/
Please ask before use
The Vanguard of Computation
This collection of portraits presents the people who are defining the limits and reach of computation
Steven Murdoch is a researcher in the Cambridge Security Group and a member of Tor which is an open network that helps you defend against a form of network surveillance that threatens personal freedom, confidential business activities, relationships and state security known as traffic analysis.
These result images are from the first homework assignment of my Computational Photography class at Columbia University. For each image I applied a number of face detectors to the images and determined the best rotation give the number of faces. I also classified the image as having being individuals or group shots.